Why ROCKWOOL for CEILING

ROCKWOOL's insulation is the perfect choice for non-heated spaces like garages or cellars in commercial and residential buildings from shopping malls, offices, concert halls to restaurants, hotels or small houses. Suitable for refurbished or new buildings ROCKWOOL has a high performing and cost-effective insulation product that will last for the life of the building. ROCKWOOL's ceiling insulation is essential in order to ensure thermal and acoustic insulation but even more contributes to the acoustic correction of the spaces in which it is installed.

Fire

ROCKWOOL insulation is classified as belonging to Euroclass A1, made from naturally fire resistant stone mineral wool. As a result, it protects flammable constructions or those susceptible to the effects of fire, it increases elements of building structures’ resistance to fire, it slows down heat transfer up to high temperatures and its fibrous structure does not melt away below 1000°CROCKWOOL products improve the safety of occupants and rescuers, as well as protecting property and belongings in the event of a fire

For Ceiling applications it can result in the use of less concrete required to provide the adequate length of time for fire protection. Above this it is used for car garage ceilings for fire protection

Acoustics

ROCKWOOL stone wool products are among the most used and most effective acoustic insulators used in construction. Thanks to the air pockets between the fibres, ROCKWOOL stone wool provides good sound absorption and reduces noise vibrations. It is used in ceilings against noise and vibrations and to improve the indoor acoustic comfort and contributes to the acoustic correction of the spaces in which it is installed

Thermal

ROCKWOOL insulation derives its excellent thermal properties from tiny pockets of air trapped within the physical structure of the stone wool. ROCKWOOL insulation products keep the low temperatures for non-heated spaces out and keep the indoor temperature constant for longer periods. It retains its shape and thickness even under extreme conditions, minimizing the risk of thermal bridges.